Applied Computational Physics
Joseph F. Boudreau, Eric S. Swanson
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Applied Computational Physics is a graduate-level
text stressing three essential elements: advanced programming
techniques, numerical analysis, and physics. The goal of the text is to
provide students with essential computational skills that they will need
in their careers, and to increase the confidence with which they write
computer programs designed for their problem domain. The physics
problems give them an opportunity to reinforce their programming skills,
while the acquired programming skills augment their ability to solve
physics problems. The C++ language is used throughout the text. Physics
problems include Hamiltonian systems, chaotic systems, percolation,
critical phenomena, few-body and multi-body quantum systems, quantum
field theory, simulation of radiation transport, and data modeling.
The book, the fruit of a collaboration between a theoretical physicist and an experimental physicist, covers a broad range of topics from both viewpoints. Examples, program libraries, and additional documentation can be found at the companion website. Hundreds of original problems reinforce programming skills and increase the ability to solve real-life physics problems at and beyond the graduate level.
The book, the fruit of a collaboration between a theoretical physicist and an experimental physicist, covers a broad range of topics from both viewpoints. Examples, program libraries, and additional documentation can be found at the companion website. Hundreds of original problems reinforce programming skills and increase the ability to solve real-life physics problems at and beyond the graduate level.
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Year:
2018
Edition:
1
Publisher:
Oxford University Press
Language:
english
Pages:
944 / 936
ISBN 10:
0198708637
ISBN 13:
9780198708636
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